| 1. | Visual servo control of robotic micromanipulator
微操作机器人的视觉伺服控制 |
| 2. | Error analysis and modeling of monolithic micromanipulator
一体化微操作器误差分析与建模 |
| 3. | The process involved mounting and controlling a micromanipulator to the side of the collector tray
过程包括在收集盘的边上安装及控制一台显微操纵器。 |
| 4. | ( 2 ) in this dissertation , position kinematics of a micromanipulator with serial - parallel structure was studied
对并联微操作机器人的结构优化设计进行了较深入的讨论。 |
| 5. | So the performance test and research of intelligent parallel micromanipulator is very important and significant
因此,对其运动性能进行测试和分析研究具有重要的理论和现实意义。 |
| 6. | It also removes concern from having to mount a micromanipulator over the tray , since it could shed particles during extraction
同时也不必考虑在整个收集盘上面安置显微操作机所带来的在抽取过程中有颗粒脱落的问题。 |
| 7. | Improvement of image processing speed with visual servo control method is a necessary measure for lowering the motion error of micromanipulator
采用视觉伺服控制方法,提高图像处理速度,是降低微操作机器人运动误差的必要措施。 |
| 8. | The thesis develops virtual 6 - sps parallel robot system to test the mouse ' s control functions . the 6 - dof mouse has been used in micromanipulator robot system successfully
并开发了用于检验六维鼠标控制功能的虚拟6 - sps并联机器人系统,同时成功地将六维鼠标用于微操作机器人控制系统中。 |
| 9. | The development of intelligent micromanipulator is becoming increasingly tiny and integrating , and accordingly the micromanipulators for assembling those components are required to have higher resolution and precision
随着机电系统日益集成化和零件持续微小化,对智能微执行器系统的精度要求越来越高。 |
| 10. | The pipette was positioned on a neuron using a hydraulic micromanipulator by blind prick technique . after a giga fi seal formation , the whole - cell recording was performed by an axopatch 200b amplifier
以水压式微操纵器采用盲扎法将电极置于待测神经元上,形成巨阻封接后,用axopatch200b放大器做全细胞电压钳记录。 |
